The application of precision parts in medical equipment is very extensive and critical, and they play a crucial role in improving the performance, accuracy, and safety of medical equipment. The following is a specific analysis of the application of precision parts in medical equipment:
1、Implants and surgical tools
Implants: such as hip replacements, knee implants, etc., which require extremely high precision and accuracy to ensure a perfect match with the patient's body. Precision machining techniques such as CNC (Computer Numerical Control) machining are widely used in the manufacturing of these implants, enabling tolerances as small as a few micrometers to meet the strict requirements of the medical industry
Surgical tools: including surgical knives, scissors, complex robotic arms, etc. These tools directly act on the patient's body during the surgical process and must be manufactured with high precision. Precision machining technology can produce surgical tools with complex geometric shapes and strict tolerances, providing surgeons with higher precision and less complications in surgical support
2、Diagnostic and therapeutic equipment
MRI scanners, heart rate monitors, and X-ray machines: These devices contain a large number of precision machined electronic components such as switches, buttons, control levers, and electronic casings. The manufacturing of these parts not only requires high precision, but also strict biocompatibility and safety standards to ensure the safety of patients during examination or treatment
Artificial limbs and orthopedic devices: Artificial limbs need to be customized according to the unique physiological characteristics of each patient, and precision machining techniques such as CNC machining combined with 3D scanning and CAD modeling can achieve this goal. Orthopedic instruments such as plates, screws, and rods also require high-precision machining of complex geometric shapes to meet the needs of repairing or replacing damaged bones and joints
3、Precision mechanical components
Precision slip ring: As a key mechanical component, precision slip rings are widely used in medical equipment, such as medical X-ray equipment, CT equipment, nuclear magnetic resonance equipment, and surgical robots. They provide electrical energy and signal transmission functions for these devices, ensuring their stability and accuracy during rotational motion. Precision slip rings are made of high-quality materials and precision manufacturing processes, with characteristics such as low friction, low noise, high speed, and high signal transmission capability, meeting the needs of medical equipment for high-precision control and data transmission